Quantitative computational models play an increasingly important role in modern biology. Such models typically involve many free parameters, and assigning their values is often a substantial obstacle to model development. Directly measuring in vivo biochemical parameters is difficult, and collectively fitting them to other experimental data often yields large parameter uncertainties. Nevertheless, in earlier work we showed in a growth-factor-signaling model that collective fitting could yield well-constrained predictions, even when it left individual parameters very poorly constrained. We also showed that the model had a ‘‘sloppy’ ’ spectrum of parameter sensitivities, with eigenvalues roughly evenly distributed over many decades. Here we u...
<div><p>We explore the relationship among experimental design, parameter estimation, and systematic ...
Our understanding of the input-output function of single cells has been substantially advanced by b...
Dynamical systems modeling, particularly via systems of ordinary differential equations, has been us...
The wonderful complexity of livings cells cannot be understood solely by studying one gene or protei...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
<div><p>Most biological models of intermediate size, and probably all large models, need to cope wit...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
The paper is focused on sensitivity analysis of large-scale models of biological systems that descri...
Most biological models of intermediate size, and probably all large models, need to cope with the fa...
Computational and mathematical modelling has become a valuable tool for investigating biological sys...
25 páginas, 11 figuras, 2 tablasDynamic models of biochemical networks are often formulated as sets ...
The regulatory systems that allow cells to adapt to their environments are exceedingly complex, and ...
Abstract When modeling complex biological systems, exploring parameter space is critical, because pa...
Since A. M. Turing’s paper proposing a mathematical basis for pattern formation in developing organi...
In order to understand a variety of physical phenomena (such as signaling networks in molecular bio...
<div><p>We explore the relationship among experimental design, parameter estimation, and systematic ...
Our understanding of the input-output function of single cells has been substantially advanced by b...
Dynamical systems modeling, particularly via systems of ordinary differential equations, has been us...
The wonderful complexity of livings cells cannot be understood solely by studying one gene or protei...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
<div><p>Most biological models of intermediate size, and probably all large models, need to cope wit...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
The paper is focused on sensitivity analysis of large-scale models of biological systems that descri...
Most biological models of intermediate size, and probably all large models, need to cope with the fa...
Computational and mathematical modelling has become a valuable tool for investigating biological sys...
25 páginas, 11 figuras, 2 tablasDynamic models of biochemical networks are often formulated as sets ...
The regulatory systems that allow cells to adapt to their environments are exceedingly complex, and ...
Abstract When modeling complex biological systems, exploring parameter space is critical, because pa...
Since A. M. Turing’s paper proposing a mathematical basis for pattern formation in developing organi...
In order to understand a variety of physical phenomena (such as signaling networks in molecular bio...
<div><p>We explore the relationship among experimental design, parameter estimation, and systematic ...
Our understanding of the input-output function of single cells has been substantially advanced by b...
Dynamical systems modeling, particularly via systems of ordinary differential equations, has been us...